VIA HOLE MOUNTING APPARATUS

Abstract

The invention relates to a top mount mechanism. The top mount mechanism is located at the bottom of a mixer, faucet, or tap. The top mounting mechanism includes the following parts: a top mount flange (2), a clamp plate (3), and connecting accessories. The top mount flange (2) and clamp plate (3) are linked via the connecting accessories. The top mount flange is located at the bottom of a mixer, faucet, or tap, flexible hoses from a mixer, faucet, or tap go through the top mount flange (2) and clamp plate (3). Connecting accessories includes a clamp screw (4) and guide pins (5) at the sides, the clamp plate (3) can rotate through a spigot (7) on the guide pins (5), and it is connected to the clamp screw (4) via thread connection, the clamp plate (3) moves up and down sliding along the guide pins (5).

Claims

1. A type of top mounting mechanism, the top mount mechanism fits onto the bottom of the mixer, tap or faucet body comprising: a top mount flange (2); clamp plate (3); and connection accessories; characterized in that the top mount flange (2) and clamp plate (3) are connected through the connection accessories, whereby said top mount flange (2) is fitted at the bottom of the mixer, tap or faucet, and flexible hoses pass through the top mount flange (2) and clamp plate (3), and connect to the mixer, tap or faucet body; and the connection accessories comprises of a clamp screw (4) and guide pins (5), whereby the clamp plate (3) can rotate through a spigot (7) on the guide pins (5), and the clamp plate (3) is engaged to the clamp screw (4) through the thread connection.

2. The top mount mechanism according to claim 1, wherein the clamp plate (3) is formed with two pivot holes (6) at both ends, where the spigot end is fitted; the spigot (7) is having a threaded hole (23) at the center of the vertical axis, clamp screw (4) is engaged with clamp screw hole (23) through the thread, spigot (7) moves up and down vertically sliding along the guide pin (5).

3. The top mount mechanism according to claim 2, wherein the end of the spigot (7) is having 2 spigot guide pin holes (9), one on either side of the clamp screw hole (23). The guide pins (5) have opened-ends (10), the opened-ends (10) are matched to the spigot guide pin holes (9).

4. The top mount mechanism according to claim 2, wherein at both ends there are holes for guide pins (5) to pass through.

5. The top mount mechanism according to claim 2, wherein at one end of the spigot (7) is designed to have a cover plate (8), and the other end is mounted with a spring (13), this end of spigot has a spring hole (15), the clamp plate (3) end which connects to the spigot spring (13) has a spring hole (15), so that the spring (13) connects both spigot (7) and clamp plate (3) together.

6. The top mount mechanism according to claim 1, wherein the top mount flange (2) has a tap body locating pin (16) on the bottom of the rim, the tap body locating pin (16) corresponds to flange pin location (17) on the tap body (2).

7. The top mount mechanism according to claim 1, wherein the outer wall of the top mount flange (2) has a least one groove, where the girth member is seated.

8. The top mount mechanism according to claim 5, wherein girth member can be either O-ring (20) or plastic sleeve (19), the O-ring (20) or plastic sleeve (19) sits in the ring groove (18).

Description

BRIEF DESCRIPTION OF THE DRAWING

[0015] FIG. 1 Perspective view of a top mount mechanism with a tap body

[0016] FIG. 2 Perspective view of a top mount mechanism with a typical tap body, but which is not limited to this style

[0017] FIG. 3 Exploded Diagram of a top mount mechanism assembly

[0018] From FIG. 1 to FIG. 3: [0019] 1. Tap Body [0020] 2. Top Mount Flange [0021] 3. Clamp Plate [0022] 4. Clamp Screw [0023] 5. Guide Pin [0024] 6. Pivot Hole [0025] 7. Spigot [0026] 8. Spigot Cover Plate [0027] 9. Spigot Guide Pin Hole [0028] 10. Guide pins opened-end [0029] 11. Locking Screw [0030] 13. Spring [0031] 14. Anti slippery gasket [0032] 15. Spring hole [0033] 16. Tap Body Locating Pin [0034] 17. Flange Pin Location [0035] 18. Ring Groove [0036] 19. Plastic Sleeve [0037] 20. O-ring [0038] 21. Grub Screw Hole [0039] 22. Grub Screw [0040] 23. Clamp Screw Hole

Embodiment

[0041] With reference to FIG. 1, 2, 3 shows a top mount mechanism at the bottom of tap body (1) in accordance with invention comprises a top mount flange (2), clamp plate (3), and connection accessories. Top mount flange (2) and clamp plate (3) are connected through the connection accessories, the top mount flange (2) is fitted at the bottom of the tap body (1), flexible hoses from tap body (1) pass through the top mount flange (2) and clamp plate (3); connecting accessories includes clamp screw (4) and guide pins (5) at the sides, the clamp plate (3) can rotate through a spigot on the guide pins (5), and it is connected to the clamp screw (4) via thread connection; guide pins (5) are fixed at the bottom of top mounting flange (2) via locking screws (11).

[0042] During installation, lift the clamp plate (3) to a vertical position to allow the clamp plate (2) to pass through the hole in the sink or bench top. The spring loaded clamp plate (3) will automatically return to the horizontal position which is necessary to ensure proper clamping to the underside of the sink or bench top. Place the top mount flange (2) into position and tighten the clamp screw (4). This will cause the clamp plate (3) to move upward against the guide pin (5), until the clamp plate (3) has fastened up against the underside of the mounting surface. Place the tap body (1) into position on the mounting flange (2) that is now securely mounted to the sink or bench top.

[0043] As shown in FIG. 3, clamp plate ends have pivot holes (6), spigot (7) lies in the pivot holes (6), spigot (7) has a threaded clamp screw hole (23) at the center of the vertical axis, clamp screw (4) engages with threaded hole (23) in the clamp spigot, spigot (7) moves up and down vertically sliding along the guide pin (5).

[0044] The connection between guide pins (5) and spigot (7) has various structure:

[0045] Example 1, at the end of spigot (7) there are two spigot guide pin holes (9), guide pins (5) have opened-ends (10), the opened-ends (10) are matched to the guide pin holes (9).

[0046] Example 2, both the ends of the spigot (7) there are two holes where the guide pins (5) pass through.

[0047] The spigot (7) slides along the guide pins (5), by using the clamp screw (4) the clamp plate (3) moves up and down vertically; at the bottom of clamp screw (4) there is a cap nut to prevent the clamp plate (3) from falling out of the clamp screw (4) in a reverse rotation.

[0048] At one end of the spigot there is cover plate (8), the other end of the spigot is fitted with spring (13), this end has a spring hole (15), the clamp plate end (3) which connects to the spigot spring also have a spring hole (15), so that the spring (13) connects both spigot (7) and clamp plate (3) together.

[0049] The spring (13) at the spigot (7) will ensure the clamp plate (3) is always 90? to the guide pins (5). During installation clamp plate (3) will be lifted up to a vertical position to allow the clamp plate (3) to pass through the tap hole, the spring loaded clamp plate (3) will automatically return to the horizontal position once released, this will ensure the top mount flange (2) and clamp plate (3) is able to clamp to the mounting surface in the correct position and make a smooth fit.

[0050] Top mount flange (2) has a tap body locating pin (16) on the bottom of the rim, this tap body locating pin (16) corresponds to flange pin location (17) on the tap body (1), there is at least one tap body location pin (16) and flange pin location (17) is arranged. Bottom of tap body (1) and top mounting flange (2) has a grub screw hole (21), tap body (1) will be securely attached to the top mount flange (2) by tightening the grub screw (22) through grub screw hole (21).

[0051] The outer surface of the top mount flange (2) has at least one ring groove (18), where the girth member is seated, girth member can be either plastic sleeve (19) or O-ring (20). As shown in FIG. 3, there are two ring grooves (18), plastic sleeve (19) or O-ring (20) sit in the ring grooves (18).

[0052] The bottom of top mount flange (2) has a ring groove which fits the anti slippery gasket (14), this is to increase the friction between the counter top and the top mount flange (2) so that it will not slides on the counter top, to ensure more secure fixing of the top mounting mechanism on counter top.

[0053] Even though numerous characteristics and advantages of the present invention have been set forth in the forgoing description, together with details of the structure and function of the invention, the disclosure is illustrative only, and changes may be made in detail.